CN110271010A

CN110271010A - The control method of robot system and robot

Info

Publication number: CN110271010A
Application number: CN201910112057.3A
Authority: CN
Inventors: 滝沢一博
Original assignee: Omron Corp
Current assignee: Omron Corp
Priority date: 2018-03-15
Filing date: 2019-02-13
Publication date: 2019-09-24
Anticipated expiration: 2039-02-13
Also published as: JP6919607B2; JP2019155318A; CN110271010B; EP3539673A1; EP3539673B1; US20190283258A1; US10913162B2

Abstract

The present invention provides the control method of a kind of robot system and robot, can be coated with liquid the conditions such as temperature even if in surrounding are deposited in varying situations with uniform thickness.Robot system includes: robot；Liquid coating part is set to robot；Coating thickness measurement portion measures the coating thickness for the liquid being coated with by liquid coating part；Distance measuring portion is measured to from the 1st distance of the distance measuring portion until being coated with object；Control unit controls robot based on the 1st distance so that from liquid coating part until being coated with object the 2nd distance for fix；And supply amount adjustment section, according to the coating thickness as measured by coating thickness measurement portion, to adjust supply amount of the liquid towards coating object, distance measuring portion, liquid coating part and coating thickness measurement portion are directed towards the coating direction of liquid, are configured according to the sequence of distance measuring portion, liquid coating part and coating thickness measurement portion.

Description

The control method of robot system and robot

Technical field

The present invention relates to a kind of robot system (robot system) and the control methods of robot.

Background technique

Following technologies are disclosed in patent document 1: die head being installed on the actuator (actuator) moved up and down (die head), measured by the range determination sensor (sensor) being disposed in die head die head and substrate surface away from From die head is maintained set distance at a distance from substrate surface.According to patent document 1, the fluctuating of substrate is followed and in base Uniform coated film is formed on plate.

Following technologies are disclosed in patent document 2: it is opposite that liquid nozzle (nozzle) is set according to the viscosity of solution In the position of basal disc.According to patent document 2, highly viscous solution is coated with a uniform film thickness on basal disc surface.

[existing technical literature]

[patent document]

Patent document 1: Japanese Patent Laid-Open 2004-298697 bulletin

Patent document 2: Japanese Patent Laid-Open 2010-042325 bulletin

Summary of the invention

[problem to be solved by the invention]

But using robot, the coating thickness of liquid is not only by base in the case where the upper coating liquid such as substrate The fluctuating of plate influences, and by the pressure in the residual liquid quantity or liquid coating part in ambient temperature, liquid coating part Deng influence.About this point, in the technology documented by patent document 1 and patent document 2, can not (real time) chase after in real time The coating weight of liquid is controlled with temperature change in surrounding etc., so that liquid can not be coated with uniform thickness.

Therefore, the conditions such as temperature the issue of the present invention is to provide one kind even if in surrounding are deposited in varying situations The robot system of liquid and the control method of robot can be coated with uniform thickness.

[technical means to solve problem]

In order to solve the problem, the robot system of this announcement includes:

Robot；

Liquid coating part is set to the robot；

Coating thickness measurement portion measures the coating thickness for the liquid being coated with by the liquid coating part；

Distance measuring portion is measured to from the 1st distance of the distance measuring portion until being coated with object；

Control unit controls the robot based on the 1st distance, so that from the liquid coating part up to the painting The 2nd distance until cloth object is fixation；And

Supply amount adjustment section, according to the coating thickness as measured by the coating thickness measurement portion, to adjust the liquid Towards it is described coating object supply amount,

The distance measuring portion, the liquid coating part and the coating thickness measurement portion are directed towards the coating of the liquid Direction is configured according to the sequence of the distance measuring portion, the liquid coating part and the coating thickness measurement portion.

In the robot system, it is coated with liquid by being set to the liquid coating part of robot, is surveyed by coating thickness Amount portion measures the coating thickness of liquid.Distance measuring portion to from 1st distance of the distance measuring portion until being coated with object into Row measurement.Control unit controls robot based on the 1st distance so that from liquid coating part until being coated with object the 2nd away from From for fix.Supply amount adjustment section is according to the coating thickness as measured by coating thickness measurement portion, to adjust liquid towards coating The supply amount of object.

In robot system as described above, distance measuring portion, liquid coating part and coating thickness measurement portion are directed towards The coating direction of liquid, is configured according to the sequence of distance measuring portion, liquid coating part and coating thickness measurement portion.

Therefore, according to the robot system, the painting of liquid is measured using distance measuring portion and coating thickness measurement portion Cloth thickness, and the supply amount of liquid come linear (linear) real-time (real time) is controlled according to coating thickness, therefore even if It deposits in varying situations in conditions such as the temperature of surrounding, also can be coated with liquid with uniform thickness.

Moreover, distance measuring portion, liquid coating part and coating thickness measurement portion are directed towards liquid according to the robot system The coating direction of body and be arranged in order according to this, therefore coating thickness can be measured by time difference operation.

In the robot system of one embodiment,

It is reached on the coating object for measuring the 1st distance by the distance measuring portion in the liquid coating part Point (point) when, the control unit controls the robot based on the 1st distance, so that from the liquid coating part The 2nd distance until the coating object is fixation,

The coating pair that the 1st distance is measured by the distance measuring portion is reached in the coating thickness measurement portion When as upper point, the coating thickness measurement portion is based on from distance of the coating thickness measurement portion until coated face and institute The 1st distance is stated, to measure the coating thickness of the liquid.

In the robot system of one embodiment, pass through the range measurement configured according to sequence as described above Portion, liquid coating part and coating thickness measurement portion can measure coating thickness by time difference operation and adjust the confession of liquid To amount.

In the robot system of one embodiment,

The liquid coating part includes syringe (syringe) and nozzle, and the nozzle includes the ejiction opening of the liquid Throttle part,

The supply amount adjustment section is by driving the throttle part, to adjust the liquid towards the coating object Supply amount.

In the robot system of one embodiment, the supply amount of liquid is by driving the throttle part of nozzle to adjust It is whole.Also, the coating thickness of the supplied liquid of measurement as described above, according to coating thickness come linearly real-time control liquid Coating part is at a distance from coating object.It therefore, also can be with equal even if being deposited in varying situations in conditions such as the temperature of surrounding Even thickness is coated with liquid.

In the robot system of one embodiment,

The liquid coating part includes syringe and nozzle, by will be set as negative pressure in the syringe, to inhibit liquid The ejection of body, by the way that atmospheric pressure or positive pressure will be set as in syringe, so that the ejection of liquid is carried out,

The supply amount adjustment section by adjusting the nozzle at a distance from the coating object, to adjust the liquid court To the supply amount of the coating object.

In the robot system of one embodiment, the liquid spray volume when pressure in syringe is set as positive pressure is incited somebody to action Changed at a distance from coating object according to nozzle.The coating thickness of the liquid sprayed is measured, and thick according to coating Degree come linearly real-time control liquid coating part be coated with object at a distance from.Therefore, even if existing in conditions such as the temperature of surrounding In the case where variation, also liquid can be coated with uniform thickness.

In order to solve the problem, the control method of the robot of this announcement includes the following steps:

The coating thickness for the liquid being coated with by the liquid coating part for being set to robot is measured；

Measure the 1st distance from distance measuring portion until being coated with object；

The robot is controlled based on the 1st distance, so that from the liquid coating part up to the coating object Until the 2nd distance for fix；And

Supply amount of the liquid towards the coating object is adjusted according to measured coating thickness,

It is applied according to the step of being measured to the distance until the coating object, by the liquid coating part Sequence described in cloth the step of liquid and the step of measuring the coating thickness is handled.

According to the control method of this announcement, the coating that liquid is measured using distance measuring portion and coating thickness measurement portion is thick Degree, and according to coating thickness come the supply amount of linearly real-time control liquid, therefore even if exist in conditions such as the temperature of surrounding In the case where variation, also liquid can be coated with uniform thickness.

Moreover, according to the step of being measured to the distance until being coated with object, being passed through according to the control method Liquid coating part is handled come sequence the step of being coated with liquid and the step of measurement coating thickness, thus can by when Between difference operation measure coating thickness.

[The effect of invention]

According to above can it is clear that, according to the robot system of this announcement and the control method of robot, though Around the conditions such as temperature deposit in varying situations, also can be coated with liquid with uniform thickness.

Detailed description of the invention

Fig. 1 is the top view for indicating the robot system in an embodiment.

Fig. 2 is the side view for indicating the structure of dispenser head (dispenser head).

Fig. 3 is the block diagram for indicating hardware (hardware) structure of dispenser controller.

Fig. 4 is the functional block diagram of dispenser controller.

(A) of Fig. 5 is the figure that the ejection of coating fluid when separating to workpiece with nozzle is illustrated, and (B) of Fig. 5 is to work The figure that the ejection of coating fluid when (A) of the part with nozzle not compared with Fig. 5 is separated is illustrated.

(A) of Fig. 6 and (B) of Fig. 6 are the figures for illustrating the control method of distance between nozzle-workpiece.

(A) of Fig. 7 and (B) of Fig. 7 are the figures for illustrating coating thickness measurement method.

Fig. 8 is the wire figure of the control loop (loop) of the control of distance between indicating nozzle-workpiece.

Fig. 9 is the wire figure for indicating the control loop of Z axis (up and down direction) control of dispenser head.

[explanation of symbol]

22a: distance measurement sensor (distance measuring portion)

22b: coating thickness measurement sensor (coating thickness measurement portion)

24: nozzle (liquid coating part)

30: dispenser controller

73a: control unit

73b: supply amount adjustment section

100: robot system

Specific embodiment

Hereinafter, embodiments of the present invention are described in detail with reference to the attached drawings.

(robot system)

Fig. 1 is the top view of the robot system 100 in the embodiment for indicate this announcement.As shown in Figure 1, this implementation Robot system 100 in mode include robot 10, dispenser head 20, as robot 10 control device dispenser control Device 30 processed and as coating object workpiece 40.

Robot 10 is, for example, the 6 axis vertical multi-joint robots of arm (arm) type.The vertical multi-joint machine of 6 axis of arm type People has the power sources such as servo motor (servo motor), by being based on robot control program from dispenser controller 30 The control signal of output drives servo motor, so that each joint shaft acts.

Liquid is coated on workpiece 40 by dispenser head 20.As liquid, such as use sealant (sealer) material, aqueous print The low viscosities such as the ink (ink) of brush, machine oil (engine oil), olive oil (olive oil) to medium viscosity liquid.

Fig. 2 is the side view for indicating the structure of dispenser head 20.As shown in Fig. 2, dispenser head 20 includes bracket (holder) 21, distance measurement sensor 22a, coating thickness measurement sensor 22b, syringe 23 and as liquid coating part Nozzle 24.Bracket 21 is kept at a distance measurement sensor 22a, coating thickness measurement sensor 22b and syringe 23.

Distance measurement sensor 22a be for from 1st distance of the distance measurement sensor 22a until workpiece 40 into The sensor of row measurement uses reflection sensor as an example.Coating thickness measurement sensor 22b is for being coated on The sensor that the coating thickness d of the liquid of workpiece 40 is detected uses reflection sensor as an example.

Syringe 23 is the container for accommodating the liquid to be coated with.Nozzle 24 is installed in the front end of syringe 23, is to spray The pipe of liquid.

Distance measurement sensor 22a, nozzle 24 and coating thickness measurement sensor 22b are as shown in Fig. 2, be directed towards arrow F Shown in liquid coating direction, according to the suitable of distance measurement sensor 22a, nozzle 24 and coating thickness measurement sensor 22b Sequence is configured.

Dispenser controller 30 is control robot 10, nozzle 24 is kept constant at a distance from workpiece 40, and right The control device that the coating weight of liquid is adjusted.The hardware configuration of Fig. 3 expression dispenser controller 30.Dispenser controller 30 As shown in figure 3, including input unit 31, display device 32, central operation device 33, storage device 34 and communication I/F35.As An example, input unit 31 include keyboard (keyboard) etc..As an example, display device 32 includes display (display).Make As an example of, central operation device 33 includes central processing unit (Central Processing Unit, CPU).Storage device 34 wraps Non-volatile memory device and volatile storage are included, non-volatile memory device stores robot control program and sequence control Processing procedure sequence etc..Moreover, the working storage (work memory) when being executed as central operation device 33, suitably using volatile Property storage device.Communication I/F35 is, for example, the interface (interface) of the serial transmission lines such as RS232C (serial line), is carried out The input of the output valve of sensor 22 and communication with robot 10.Communicate the interface that I/F35 can also be other communication lines.

Fig. 4 is the functional block diagram of the dispenser controller 30 in present embodiment.Dispenser controller 30 is used as input Reason portion 71, display processing unit 72, operational part 73, storage unit 74 and communication processing section 75 function.Input processing portion 71 is to next It is handled from the input of input unit 31.Show the display data of the production of processing unit 72 output to display device 32.Operational part 73 include control unit 73a and supply amount adjustment section 73b.Control unit 73a controls robot 10 based on the 1st distance, so that It is fixation from 2nd distance of the nozzle 24 until workpiece 40.Supply amount adjustment section 73b is according to by coating thickness measurement sensor Coating thickness measured by 22b, to adjust supply amount of the liquid towards workpiece 40.Control unit 73a's and supply amount adjustment section 73b Function in detail will be aftermentioned.Storage unit 74 stores robot control program and sequence control program etc..

(control method of coating weight)

(A) of Fig. 5 and (B) of Fig. 5 are for illustrating coating weight of the coating fluid Lq on workpiece 40 in present embodiment Method of adjustment figure.Dispenser head 20 is by will be set as negative pressure in syringe 23, to inhibit coating fluid Lq to flow down because of gravity. Also, by the way that negative pressure in syringe 23 is set as atmospheric pressure or positive pressure, to spray coating fluid Lq.

At this point, as shown in (A) of Fig. 5, when being coated with objective workpiece 40 and nozzle 24 leaves distance C, because being flowed from nozzle 24 The gravity of coating fluid Lq out, thus compared with the case where not leaving distance C with shown in (B) such as Fig. 5, it is more by spraying Coating fluid Lq.In present embodiment, using this effect, robot 10 is controlled by supply amount adjustment section 73b, is applied by changing Cloth objective workpiece 40 is at a distance from nozzle 24 come the adjustment for the amount of being coated.

(control method of distance between nozzle-workpiece)

Next, in the robot system 100 by present embodiment nozzle 24 and the distance between workpiece 40 keep It is illustrated for fixed control method.(A) of Fig. 6 and (B) of Fig. 6 are for illustrating nozzle-workpiece in present embodiment Between distance control method figure.

As shown in (A) of Fig. 6, control unit 73a passes through distance measurement sensor 22a, the point P on workpiece 40 at a certain moment Place measures the 1st distance D1 of nozzle 24 and workpiece 40.Then, dispenser head 20 is moved towards the coating of liquid shown in arrow F direction Dynamic, as shown in (B) of Fig. 6, as 24 point of arrival P of nozzle, control unit 73a drives dispenser head based on the 1st distance D1 20, so that the 2nd distance D2 of nozzle 24 and workpiece 40 is to fix.Due to distance measurement sensor 22a at a distance from nozzle 24 Know in advance, therefore by measuring the 1st distance D1 in advance, thus as 24 point of arrival P of nozzle, it can be by nozzle 24 and workpiece 40 The 2nd distance D2 be kept constant.It therefore, also can be by nozzle 24 even if in the case where the surface of workpiece 40 exists and rises and falls It is kept constant at a distance from workpiece 40, so that coating thickness be made to fix.

(coating thickness measurement method)

Next, being illustrated to the coating thickness measurement method in the robot system 100 of present embodiment.Fig. 7's (A) and (B) of Fig. 7 is figure for being illustrated to the coating thickness measurement method in present embodiment.

As shown in (A) of Fig. 7, control unit 73a passes through distance measurement sensor 22a, the point P on workpiece 40 at a certain moment Place measures the 1st distance D1 of nozzle 24 and workpiece 40.Then, control unit 73a is as described above, by nozzle 24 and the 2nd of workpiece 40 the Distance D2 is kept constant.Next, coating thickness measurement sensor 22b measurement from coating thickness measurement sensor 22b up to Distance D3 until the coated face of coating fluid Lq, by subtracting distance D3 from the 1st distance D1, to measure coating thickness d. In this way, in the present embodiment, using distance measurement sensor 22a and the two sensors of coating thickness measurement sensor 22b, The coating thickness of liquid is measured by time difference operation.

Next, further illustrating the control of distance between nozzle-workpiece in present embodiment referring to Fig. 8 and Fig. 9 The method of adjustment of method and coating weight.Fig. 8 is the control loop of the control of distance between the nozzle-workpiece indicated in present embodiment Wire figure.The control unit 73a of dispenser controller 30 as shown in figure 8, by distance measurement sensor 22a, survey by measurement distance The 1st distance D1 of quantity sensor 22a and workpiece 40.Next, the distance that control unit 73a knows according to the 1st distance D1 and in advance Measurement sensor 22a calculates the 2nd distance D2 of nozzle 24 and workpiece 40 at a distance from nozzle 24.Then, control unit 73a passes through Time delay processing function 81 makes the feedback delay of the 2nd distance D2.The time of delay is for example set to measure from point P Time at the time of 1st distance D1 until 24 point of arrival P of nozzle out.

For nozzle 24 at a distance from workpiece 40, it is pre-provisioned with target value.Control unit 73a is according to the target value and warp The 2nd distance D2 of delay fed back, to calculate change value of the height relative to target value of nozzle 24.Next, control unit The change value of the height of nozzle 24 is input to change value-instruction conversion function 82 by 73a.Change value-instruction conversion function 82 exists In the case that the change value of the height of nozzle 24 is greater than target value, output makes dispenser head 20 towards negative direction (minus) of Z axis (lower direction) mobile instruction.Moreover, change value-instruction conversion function 82 is less than target value in the change value of the height of nozzle 24 In the case where, output makes dispenser head 20 towards the instruction of the positive direction (plus) (upper direction) movement of Z axis.

The action command of the Z-direction exported from change value-instruction conversion function 82 is input to Z axis control function 83.Z Axis control function 83 keeps dispenser head 20 mobile according to the action command inputted.In present embodiment, by as described above Nozzle 24 is kept constant by control loop at a distance from workpiece 40.

Next, further illustrating the coating thickness control method in present embodiment referring to Fig. 9.Fig. 9 is to indicate The wire figure of the control loop of Z axis (up and down direction) control of dispenser head in present embodiment.Dispenser controller 30 Control unit 73a is as shown in figure 9, measure the 1st distance D1 by distance measurement sensor 22a.

Also, control unit 73a makes the feedback delay of the 1st distance D1 by time delay processing function 90.Delay when Between be for example set to from the time of measuring the 1st distance D1 at point P up to coating thickness measurement sensor 22b point of arrival P Until time.

On the other hand, as coating thickness measurement sensor 22b point of arrival P, coating thickness measurement sensor 22b measurement from Distance D3 of the coating thickness measurement sensor 22b until coated face.Also, by from delayed feedback as described above 1st distance D1 subtracts distance D3, to calculate coating thickness d.

Next, coating thickness d is converted to coating fluid by height-capacity conversion function 91 by supply amount adjustment section 73b Capacity.As a result, since the current value of coating fluid capacity is it is known that therefore supply amount adjustment section 73b feeds back this value.

When being coated to coating fluid Lq, it is pre-provisioned with the target value of coating fluid capacity.Supply amount adjustment section 73b root According to the feedback of the current value of the target value and coating fluid capacity of the coating fluid capacity, to calculate relative to coating fluid capacity goals The change value of value.Next, the change value of coating fluid capacity is input to change value-instruction by supply amount adjustment section 73b converts function Energy 92.Change value-instruction conversion function 92 is in the case where the change value of coating fluid capacity is greater than target value, that is, in coating weight In the case where more, output makes dispenser head 20 towards the instruction of negative direction (lower direction) movement of Z axis.Moreover, change value-instruction turns Function 92 is changed in the case where the change value of coating fluid capacity is less than target value, that is, in the case where coating weight is few, output makes point Infuse the instruction mobile towards the positive direction (upper direction) of Z axis of device head 20.

The action command of the Z-direction exported from change value-instruction conversion function 92 is input to Z axis control function 93.Z Axis control function 93 is according to the action command inputted, to keep dispenser head 20 mobile.In present embodiment, by as described above Control loop, come the control for the amount of being coated.

In present embodiment, by concurrently carry out between nozzle-workpiece shown in Fig. 8 the control of distance with it is shown in Fig. 9 Distance between nozzle-workpiece, can not only be kept constant, but also can linearly control dispenser head 20 towards Z axis side by coating thickness control To movement, nozzle 24 is kept constant at a distance from the coated face of the coating fluid Lq on workpiece 40.As a result, even if because Temperature, the surplus of coating fluid Lq, dispenser head 20 syringe 23 in pressure change, and the coating fluid Lq from nozzle 24 Spray volume exist change in the case where, the coating thickness of the coating fluid Lq on workpiece 40 can be also kept constant.

Moreover, according to the present embodiment, though in the case where the surface of workpiece 40 exists and rises and falls, due to can by away from Measure the 1st distance D1 from distance measurement sensor 22a until workpiece 40 from measurement sensor 22a, therefore even if Be coated with objective workpiece 40 surface and non-flat forms and have rise and fall in the case where, can also follow this accurately to measure coating Thickness d.As a result, even if workpiece 40 surface exist rise and fall in the case where, also can be by the coating fluid Lq's on workpiece 40 Coating thickness is kept constant.

Moreover, in present embodiment, used distance measurement sensor 22a and coating thickness measurement sensor 22b this two A sensor, therefore even if also can be realized will be coated with without using the expensive sensor of laser sensor etc The control that thickness is kept fixed.Therefore, according to the present embodiment, it can be realized the reduction of cost.

In the embodiment, as the method for adjustment of liquid supply amount, to adjustment dispenser head 20 and workpiece 40 away from From example be illustrated.But this announcement is not limited to such form.For example, throttling can also be arranged in nozzle 24 Component adjusts the supply amount of liquid by driving throttle part.

Above embodiment is to illustrate, and can not depart from the scope of the present invention and carry out various modifications.The multiple reality The mode of applying can separately be set up, but can also carry out embodiment combination with one another.Moreover, various in different embodiments Feature can also separately be set up, but can also carry out the feature combination with one another in different embodiments.

Claims

1. a kind of robot system, characterized by comprising:

Robot；

Liquid coating part is set to the robot；

Control unit controls the robot based on the 1st distance, so that from the liquid coating part up to the coating pair The 2nd distance as until is fixation；And

Supply amount adjustment section, according to the coating thickness as measured by the coating thickness measurement portion, to adjust the liquid direction The supply amount of the coating object,

The distance measuring portion, the liquid coating part and the coating thickness measurement portion are directed towards the coating side of the liquid To being configured according to the sequence of the distance measuring portion, the liquid coating part and the coating thickness measurement portion.

2. robot system according to claim 1, which is characterized in that

The point on the coating object for measuring the 1st distance by the distance measuring portion is reached in the liquid coating part When, the control unit controls the robot based on the 1st distance, so that from the liquid coating part up to the coating The 2nd distance until object is fixation,

It is reached on the coating object for measuring the 1st distance by the distance measuring portion in the coating thickness measurement portion Point when, the coating thickness measurement portion is based on from distance of the coating thickness measurement portion until coated face and described the 1 distance, to measure the coating thickness of the liquid.

3. robot system according to claim 1 or 2, which is characterized in that

The liquid coating part includes syringe and nozzle, and the nozzle includes the throttle part of the ejiction opening of the liquid,

The supply amount adjustment section is by driving the throttle part, to adjust the supply of the liquid towards the coating object Amount.

4. robot system according to claim 1 or 2, which is characterized in that

The liquid coating part includes syringe and nozzle, by will be set as negative pressure in the syringe, to inhibit liquid It sprays, by the way that atmospheric pressure or positive pressure will be set as in syringe, so that the ejection of liquid is carried out,

The supply amount adjustment section by adjusting the nozzle at a distance from the coating object, to adjust the liquid towards institute State the supply amount of coating object.

5. a kind of control method of robot, it is characterised in that include the following steps:

The robot is controlled based on the 1st distance, so that from the liquid coating part until the coating object The 2nd distance for fix；And

According to until it is described coating object until distance measure the step of, by the liquid coating part to be coated with The step of stating liquid and sequence the step of measure the coating thickness are handled.